%%*******************************************************************
%% schurmat_sblk: compute Schur complement matrix corresponding to 
%%                SDP blocks. 
%%
%% symm = 0, HKM
%%      = 1, NT
%%
%% SDPT3: version 3.1
%% Copyright (c) 1997 by
%% K.C. Toh, M.J. Todd, R.H. Tutuncu
%% Last Modified: 16 Sep 2004
%%*******************************************************************

   function schur = schurmat_sblk(blk,At,par,schur,p,X,Y); 

   global iter smallblkdim  nnzschur  nzlistschur

   if isempty(smallblkdim); smallblkdim = 15; end
   if (nargin == 7); symm = 0; else; symm = 1; Y = X; end; 
   m = length(schur);    
   pblk = blk(p,:); 
   if (iter == 1)
      nnzschur(size(blk,1),1) = m*m; 
      nzlistschur = cell(size(blk,1),1); 
   end
%%
   if (max(pblk{2}) > smallblkdim) 
      %%
      %% compute schur for matrices that are very sparse. 
      %%
      m1 = size(At{p,1},2); 
      if issparse(schur); schur = full(schur); end;  
      J = min(m1, max(find(par.nzlistA{p,1} < inf))-1); 
      if (J > 0)
         if issparse(X{p}) & ~issparse(Y{p}); X{p} = full(X{p}); end
         if ~issparse(X{p}) & issparse(Y{p}); Y{p} = full(Y{p}); end
         if (iter <= 3) 
            [nnzschur(p),nzlisttmp] = mexschur(pblk,At{p,1},par.nzlistA{p,1},...
            par.nzlistA{p,2},par.permA(p,:),Y{p},X{p},J,symm,schur); 
            if (nnzschur(p) == mexnnz(nzlisttmp)) 
               nzlistschur{p} = nzlisttmp;
            else
               nzlistschur{p} = []; 
            end
         else
            if isempty(nzlistschur{p})
               mexschur(pblk,At{p,1},par.nzlistA{p,1},...
               par.nzlistA{p,2},par.permA(p,:),Y{p},X{p},J,symm,schur);
            else
               mexschur(pblk,At{p,1},par.nzlistA{p,1},...
               par.nzlistA{p,2},par.permA(p,:),Y{p},X{p},J,symm,schur,nzlistschur{p});
            end
         end
      end
      %%
      %% compute schur for matrices that are not so sparse or dense.
      %% 
      if (m1 < m)
         ss = [0, cumsum(pblk{3})]; 
         if (length(At(p,:)) > 2)
            dd = At{p,3};
         else
            dd = ones(sum(pblk{3}),1);
         end
         XVD = X{p}*At{p,2}*spdiags(dd,0,length(dd),length(dd)); 
         YVD = Y{p}*At{p,2}*spdiags(dd,0,length(dd),length(dd));
      end
      L = max(find(par.nzlistAsum{p,1} < inf)) -1;  
      if (J < L)
         len = par.nzlistAsum{p,1}(J+1); list = par.nzlistAsum{p,2}(1:len,:); 
      end 
      if (m1 > 0)
         for k = J+1:m 
            if (k<=m1) 
               isspAk = par.isspA(p,k);
               Ak = mexsmat(blk,At,isspAk,p,k);
               if (k <= L) 
                  idx1 = par.nzlistAsum{p,1}(k)+1; idx2 = par.nzlistAsum{p,1}(k+1);
                  list = [list; par.nzlistAsum{p,2}(idx1:idx2,:)]; 
                  list = sortrows(list,[2 1]); 
                  tmp = Prod3(pblk,X{p},Ak,Y{p},symm,list); 
               else
                  tmp = Prod3(pblk,X{p},Ak,Y{p},symm);
               end
            else
               idx = [ss(k-m1)+1 :ss(k-m1+1)]; 
               tmp = XVD(:,idx)* (Y{p}*At{p,2}(:,idx))';
            end
            if (~symm)
               tmp = 0.5*(mexsvec(pblk,tmp) + mexsvec(pblk,tmp,[],1));
            else
               tmp = mexsvec(pblk,tmp); 
            end 
            permk = par.permA(p,k);   
            idx  = par.permA(p,1:min(k,m1));  
            tmp2 = schur(idx,permk) + mexinprod(blk,At,tmp,min(k,m1),p); 
            schur(idx,permk) = tmp2; 
            schur(permk,idx) = tmp2';
         end
      end
      if (m1 < m)
         m2 = m - m1;
         YVtmp = At{p,2}'*YVD;
         XVtmp = XVD'*At{p,2};  
         for k = 1:m2
            idx0 = [ss(k)+1 : ss(k+1)]; 
            tmp = XVtmp(:,idx0) .* YVtmp(:,idx0);  
            tmp = tmp*ones(length(idx0),1); 
            tmp3 = schur(m1+[1:m2],m1+k) + mexqops(pblk{3},tmp,ones(length(tmp),1),1); 
            schur(m1+[1:m2],m1+k) = tmp3; 
         end
      end
   else
      if issparse(X{p}) & ~issparse(Y{p}); Y{p} = sparse(Y{p}); end
      if ~issparse(X{p}) & issparse(Y{p}); X{p} = sparse(X{p}); end
      tmp  = mexskron(pblk,X{p},Y{p});
      Perm = spconvert([(1:m)' par.permA(p,:)' ones(m,1)]); 
      schurtmp = At{p,1}'*tmp*At{p,1};      
      schurtmp = 0.5*(schurtmp + schurtmp');
      schur = schur + Perm'*schurtmp*Perm;
   end
%%*******************************************************************
